Abstract
Temporal regulation of gene expression is required for developmental transitions, including differentiation, proliferation, and morphogenesis. In the nematode Caenorhabditis elegans , heterochronic microRNAs (miRNAs) regulate the temporal expression of genes that promote animal development. The heterochronic miRNAs lin-4 and let-7 are required during different stages of larval development and are associated with the miRNA-specific Argonaute ALG-1. In this study, we have identified lin-67 as a heterochronic gene that negatively regulates lin-4 , let-7, and alg-1 . Loss of lin-67 function restores proper developmental timing and stage-specific gene expression to hypomorphic lin-4 and let-7 mutants. We found that loss of lin-67 resulted in a reduced number of seam cells, defects in alae formation, precocious expression of an adult-specific gene reporter, and sterility. LIN-67 contains a K homology (KH) RNA-binding domain and is a homolog of the Sam68-like splicing factor KHDRBS2. We show that LIN-67 localizes to the nucleus throughout animal development and is enriched in nuclear foci. Mutating the KH domain of LIN-67 abolished the nuclear localization of LIN-67, suggesting that the localization of LIN-67 is likely dependent on RNA-binding activity. We show that LIN-67 negatively regulates lin-4 miRNA levels and restores normal levels of let-7 to alg-1 mutants, which can, at least in part, explain how lin-67 suppresses alg-1 . Our data indicate that lin-67 is a novel heterochronic gene that regulates developmental timing and miRNA-dependent gene regulation in C. elegans .